PERMEATION AND DIFFUSION OF K IONS IN FROG MUSCLE

doi:10.1085/jgp.41.1.169

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ARTICLE

PERMEATION AND DIFFUSION OF K IONS IN FROG MUSCLE

E. J. Harris ¹

¹ From the Department of Biophysics, University College, London, England

The movements of tracer K and net changes of K have been measuredin frog muscle. The quantities moving can be linearly relatedto the square root of the time after a delay of 4 to 30 minutesdepending on the external K concentration. The slope of theuptake-t line is increased when the external K concentrationis raised. The Q₁₀ of the uptake is about 1.9 per unit t. Kuptake from 1 to 2 mM concentration is diminished by a factorof about 2 if strophanthin is applied. The output per unit tis increased by a factor of about 1.4 by strophanthin. Tetrabutylammoniumsubstituted for 10 per cent of the Na in the medium causes areversible slowing of K uptake and Na output. The rates of movementfound in the tracer experiments can be used to calculate thenet losses of K taking place in K-free or strophanthin-containingmedia. The results are interpreted on the basis of K movementbeing limited both by a resistive outer layer and by diffusionwithin a K-rich region. The internal diffusion constant is 10^–11to 10^–10 cm.² sec.^–1 depending on the K concentration.The rate of movement of the K can be related to the electrochemicalactivity of the ion, the lability of the sites on which it isabsorbed, and cation + anion pair diffusion within the cell.The surface resistance to K ions can be accounted for as thesum of a membrane resistance equal to that found by electricalmethods and the resistance offered to the movement of K by anannulus sufficiently thick (ca. 3 µ) to accommodate thecell Na at a density equal to the mean density of cation withinthe cell through which K diffuses with the same diffusion constantas holds in the K-rich region. Na movement, if assumed to takeplace by diffusion from the annulus with diffusion constantequal to that for K ions, has a rate which agrees well withobserved values. The influence of strophanthin and tetrabutylammoniumon the ion movements is interpreted as being the result of theseagents causing an expansion of the outer non-selective region,normally occupied mainly by Na, at the expense of the innerK-rich region.

Submitted on February 14, 1957

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